Bonding

Bonding

What are ionic bonds, and how are they formed? Computer Lab: Ionic Bonds • Go to http://www.pbslearningmedia.org/asset/lsps07_int_ionicbonding/ • Read each screen and follow the directions where appropriate. • Answer the questions on the screens in your packet.

What are polar and nonpolar covalent bonds, and how are they formed? Computer Lab: Covalent Bonds • Go to http://www.pbslearningmedia.org/asset/lsps07_int_covalentbonding/ • Read each screen and follow the directions where appropriate. • Answer the questions on the screens in your packet.

What are polar and nonpolar covalent bonds, and how are they formed? (Packet Pg 4) Compare/Contrast: Ionic and Covalent Bonds • Differences with regard to: • How are the bonds formed? • What is the charge on the atoms? • How many bonds can be formed between the atoms? • What types of atoms are involved?

What are polar and nonpolar covalent bonds, and how are they formed? Computer Lab: Compound Treasure Hunt • You will receive a set of compounds. For each compound, write the name (from the card), the formula, the common name or purpose, and identify whether or not it contains ionic bonds.

What are polar and nonpolar covalent bonds, and how are they formed? ReviewAtomic Radius (size)

What are polar and nonpolar covalent bonds, and how are they formed? ReviewAtomic Radius (size) • The atomic radius of an element is half of the distance between the centers of two atoms of that element that are just touching each other. • Relative size of ions and their parents: • Cations are smaller than their parents. • Anions are larger than their parents.

What are polar and nonpolar covalent bonds, and how are they formed? ReviewAtomic Radius (size) • Down a column?Atomic size generally increases as we move down a group of the periodic table. As we descend, electrons are added to successively higher energy levels. H Li Na

What are polar and nonpolar covalent bonds, and how are they formed? ReviewAtomic Radius (size) • Down a column? (con’t)The nuclear charge also increases because of additional protons. However, the full nuclear charge is shielded from the outer electrons because of the inner electrons and distance from the nucleus. H Li Na

What are polar and nonpolar covalent bonds, and how are they formed? ReviewAtomic Radius (size) • Across a row?Atomic size generally decreases as we move from left to right across a period. As we move across a period, electrons are added to the same energy level. Na Mg Al

What are polar and nonpolar covalent bonds, and how are they formed? ReviewAtomic Radius (size) • Across a row? (con’t) Protons are also added to the nucleus. The effect of the increasing nuclear charge on the outermost electrons is to pull them closer to the nucleus. Atomic size therefore decreases. Na Mg Al

What are polar and nonpolar covalent bonds, and how are they formed? Electronegativity

What are polar and nonpolar covalent bonds, and how are they formed? Electronegativity Ability of an atom in a molecule to attract electrons to itself. It is a measure of how “greedy” an atom is for electrons. Exceptions: Noble gases are not included in this general trend.

What are polar and nonpolar covalent bonds, and how are they formed? Electronegativity • Down a column?Electronegativity generally decreases as we go down a group. Li Na

What are polar and nonpolar covalent bonds, and how are they formed? Electronegativity • Across a row?Electronegativity generally increases as we go across a period. Li O F

What are polar and nonpolar covalent bonds, and how are they formed? Electronegativity ValuesAlso located on pg. 161 in your text

What are polar and nonpolar covalent bonds, and how are they formed? Electronegativity Difference • ΔEN = | ENElement 1 – ENElement 2 | • Na–Cl: ΔEN = | 0.9 – 3.0 | = 2.1

What are polar and nonpolar covalent bonds, and how are they formed? Electronegativity Difference

What are polar and nonpolar covalent bonds, and how are they formed? Dipole Moments • Represents the atom’s polarity magnitude and direction (+  –)

What are polar and nonpolar covalent bonds, and how are they formed? Dipole Moments • Khan Academy: • https://www.khanacademy.org/science/organic-chemistry/gen-chem-review/electronegativity-polarity/v/dipole-moment

What are polar and nonpolar covalent bonds, and how are they formed? Dipole Moments • Represents the atom’s polarity magnitude and direction (+  –) • Examples: H – Cl, NH3, CH3Cl, (& –COOH)

What are polar and nonpolar covalent bonds, and how are they formed? Dipole Moments • Represents the atom’s polarity magnitude and direction (+  –) • Examples: H – Cl, NH3, CH3Cl, (& –COOH) • Water:

What are polar and nonpolar covalent bonds, and how are they formed? Dipole Moments • Represents the atom’s polarity magnitude and direction (+  –) • Bond Polarity and Shape Matters:

What are polar and nonpolar covalent bonds, and how are they formed? Compare & Contrast:Polar & Nonpolar Covalent • Differences with regard to: • Electronegativity Difference • Polar Positive and Polar Negative Side WRT Electronegativity • Can it have Permanent Dipole Moment? • Effect of Molecule Shape

What are polar and nonpolar covalent bonds, and how are they formed? REVIEW • Bonds involve electrons.

What are polar and nonpolar covalent bonds, and how are they formed? Types of Bonds

How do we diagram molecular structures? Electron Dot Diagrams(Lewis Dots)

How do we diagram molecular structures? Steps for Writing Lewis Dots 1. Obtain the sum of the valence electrons from all of the atoms. Do not worry about keeping track of which electrons come from which atoms. It is the total number of valence electrons that is important.

How do we diagram molecular structures? Steps for Writing Lewis Dots 2. Use one pair of electrons to form a bond between each pair of bound atoms. For convenience, a line (instead of a pair of dots) is often used to indicate each pair of bonding electrons.

How do we diagram molecular structures? Steps for Writing Lewis Dots 3. Arrange the remaining electrons to satisfy the duet rule for hydrogen and the octet rule for each second-row element. (Ex. SO42-; NH41+)

How do we diagram molecular structures? Multiple Bonds • Lone Pairs: Pair of Electrons that are not involved in bonding • Single bonds: Involve two atoms sharing one pair of electrons • Double Bond: Involves two atoms sharing two pairs of electrons (O2) • Triple Bond: Involves two atoms sharing three pairs of electrons (CN-)

How do we diagram molecular structures? Examples (Single Bonds)

How do we diagram molecular structures? Single vs. Double vs. Triple Bonds Bond Length Bond Energy C–C: 376 kJ/mol C=C: 611 kJ/mol C≅C: 835 kJ/mol • C–C: 154 pm • C=C: 133 pm • C≅C: 120 pm

How do we diagram molecular structures? Examples (Double & Triple Bonds)

How do we diagram molecular structures? Bond Summary(add to page 9)

How do we diagram molecular structures? Polyatomic Ions

How do we diagram molecular structures? Rules for Polyatomic Ion Structures 1. Sum valence electrons. [Subtract + , Add -] 2. Create single bonds between the atoms. 3. Arrange the remaining electrons to satisfy octet/duet rules and valence electrons. 4. Double Check 5. Bracket the structure and list the charge.

How do we diagram molecular structures? Delocalization of Electrons • Electrons are not associated with 1 atom or bond.

How do we diagram molecular structures? Polyatomic Ions A group of covalently bonded atoms with an overall charge.

How do we diagram molecular structures? Resonance • Resonance: Having more than one Lewis structure that can be drawn for the molecule. • Examples: CO2 • Resonance structures • The individual resonance forms. • Separated by a double headed arrow

How do we diagram molecular structures? Examples • Hydroxide • Ammonium • Carbonate • Nitrate

How do we diagram molecular structures? Nitrate Anion

How do we diagram molecular structures? Resonance Bonding that cannot be represented by a single Lewis Structure

How do we diagram molecular structures? Representation

How do we diagram molecular structures? Other Resonance Examples Some regular molecules (without a charge) also exhibit resonance because they resist their normal Lewis Structure. O3 (cannot form regular structure due to angles) SO2 (same as above)

Bonding

Bonding

Presentation Transcript

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